Comparing multiple infection control measures in a nursing home setting: a simulation study

Infect Control Hosp Epidemiol. 2024 Jul;45(7):872-879. doi: 10.1017/ice.2024.43. Epub 2024 Mar 15.

Abstract

Objective: Compare the effectiveness of multiple mitigation measures designed to protect nursing home residents from infectious disease outbreaks.

Design: Agent-based simulation study.

Setting: Simulation environment of a small nursing home.

Methods: We collected temporally detailed and spatially fine-grained location information from nursing home healthcare workers (HCWs) using sensor motes. We used these data to power an agent-based simulation of a COVID-19 outbreak using realistic time-varying estimates of infectivity and diagnostic sensitivity. Under varying community prevalence and transmissibility, we compared the mitigating effects of (i) regular screening and isolation, (ii) inter-resident contact restrictions, (iii) reduced HCW presenteeism, and (iv) modified HCW scheduling.

Results: Across all configurations tested, screening every other day and isolating positive cases decreased the attack rate by an average of 27% to 0.501 on average, while contact restrictions decreased the attack rate by an average of 35%, resulting in an attack rate of only 0.240, approximately half that of screening/isolation. Combining both interventions impressively produced an attack rate of only 0.029. Halving the observed presenteeism rate led to an 18% decrease in the attack rate, but if combined with screening every 6 days, the effect of reducing presenteeism was negligible. Altering work schedules had negligible effects on the attack rate.

Conclusions: Universal contact restrictions are highly effective for protecting vulnerable nursing home residents, yet adversely affect physical and mental health. In high transmission and/or high community prevalence situations, restricting inter-resident contact to groups of 4 was effective and made highly effective when paired with weekly testing.

Publication types

  • Comparative Study

MeSH terms

  • COVID-19* / epidemiology
  • COVID-19* / prevention & control
  • COVID-19* / transmission
  • Computer Simulation
  • Health Personnel
  • Humans
  • Infection Control* / methods
  • Nursing Homes*
  • Presenteeism / statistics & numerical data
  • SARS-CoV-2